/* ************************************************************************
 * Copyright (C) 2018-2022 Advanced Micro Devices, Inc. All rights reserved.
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell cop-
 * ies of the Software, and to permit persons to whom the Software is furnished
 * to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in all
 * copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IM-
 * PLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
 * FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
 * COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
 * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNE-
 * CTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
 *
 * ************************************************************************ */

#pragma once

#include "bytes.hpp"
#include "cblas_interface.hpp"
#include "flops.hpp"
#include "near.hpp"
#include "norm.hpp"
#include "rocblas.hpp"
#include "rocblas_init.hpp"
#include "rocblas_math.hpp"
#include "rocblas_matrix.hpp"
#include "rocblas_random.hpp"
#include "rocblas_test.hpp"
#include "rocblas_vector.hpp"
#include "unit.hpp"
#include "utility.hpp"

template <typename T>
void testing_her2_bad_arg(const Arguments& arg)
{
    auto rocblas_her2_fn = arg.fortran ? rocblas_her2<T, true> : rocblas_her2<T, false>;

    rocblas_fill         uplo  = rocblas_fill_upper;
    rocblas_int          N     = 100;
    rocblas_int          lda   = 100;
    rocblas_int          incx  = 1;
    rocblas_int          incy  = 1;
    T                    alpha = 0.6;
    rocblas_local_handle handle{arg};

    size_t abs_incx = incx >= 0 ? incx : -incx;
    size_t abs_incy = incy >= 0 ? incy : -incy;

    // Allocate device memory
    device_matrix<T> dA_1(N, N, lda);
    device_vector<T> dx(N, incx);
    device_vector<T> dy(N, incy);

    // Check device memory allocation
    CHECK_DEVICE_ALLOCATION(dA_1.memcheck());
    CHECK_DEVICE_ALLOCATION(dx.memcheck());
    CHECK_DEVICE_ALLOCATION(dy.memcheck());

    EXPECT_ROCBLAS_STATUS(
        (rocblas_her2<T>)(handle, rocblas_fill_full, N, &alpha, dx, incx, dy, incy, dA_1, lda),
        rocblas_status_invalid_value);

    EXPECT_ROCBLAS_STATUS(
        (rocblas_her2<T>)(handle, uplo, N, &alpha, nullptr, incx, dy, incy, dA_1, lda),
        rocblas_status_invalid_pointer);

    EXPECT_ROCBLAS_STATUS(
        (rocblas_her2<T>)(handle, uplo, N, &alpha, dx, incx, nullptr, incy, dA_1, lda),
        rocblas_status_invalid_pointer);

    EXPECT_ROCBLAS_STATUS(
        (rocblas_her2<T>)(handle, uplo, N, &alpha, dx, incx, dy, incy, nullptr, lda),
        rocblas_status_invalid_pointer);

    EXPECT_ROCBLAS_STATUS(
        (rocblas_her2<T>)(nullptr, uplo, N, &alpha, dx, incx, dy, incy, dA_1, lda),
        rocblas_status_invalid_handle);
}

template <typename T>
void testing_her2(const Arguments& arg)
{
    auto rocblas_her2_fn = arg.fortran ? rocblas_her2<T, true> : rocblas_her2<T, false>;

    rocblas_int          N       = arg.N;
    rocblas_int          incx    = arg.incx;
    rocblas_int          incy    = arg.incy;
    rocblas_int          lda     = arg.lda;
    T                    h_alpha = arg.get_alpha<T>();
    rocblas_fill         uplo    = char2rocblas_fill(arg.uplo);
    rocblas_local_handle handle{arg};

    // argument check before allocating invalid memory
    if(N < 0 || !incx || !incy || lda < 1 || lda < N)
    {
        EXPECT_ROCBLAS_STATUS(
            (rocblas_her2<T>)(handle, uplo, N, nullptr, nullptr, incx, nullptr, incy, nullptr, lda),
            rocblas_status_invalid_size);

        return;
    }

    size_t abs_incx = incx >= 0 ? incx : -incx;
    size_t abs_incy = incy >= 0 ? incy : -incy;

    // Naming: `h` is in CPU (host) memory(eg hA_1), `d` is in GPU (device) memory (eg dA_1).
    // Allocate host memory
    host_matrix<T> hA_1(N, N, lda);
    host_matrix<T> hA_2(N, N, lda);
    host_matrix<T> hA_gold(N, N, lda);
    host_vector<T> hx(N, incx);
    host_vector<T> hy(N, incy);
    host_vector<T> halpha(1);
    halpha[0] = h_alpha;

    // Allocate device memory
    device_matrix<T> dA_1(N, N, lda);
    device_matrix<T> dA_2(N, N, lda);
    device_vector<T> dx(N, incx);
    device_vector<T> dy(N, incy);
    device_vector<T> d_alpha(1);

    // Check device memory allocation
    CHECK_DEVICE_ALLOCATION(dA_1.memcheck());
    CHECK_DEVICE_ALLOCATION(dA_2.memcheck());
    CHECK_DEVICE_ALLOCATION(dx.memcheck());
    CHECK_DEVICE_ALLOCATION(dy.memcheck());
    CHECK_DEVICE_ALLOCATION(d_alpha.memcheck());

    // Initialize data on host memory
    rocblas_init_matrix(
        hA_1, arg, rocblas_client_never_set_nan, rocblas_client_hermitian_matrix, true);
    rocblas_init_vector(hx, arg, rocblas_client_alpha_sets_nan, false, true);
    rocblas_init_vector(hy, arg, rocblas_client_alpha_sets_nan);

    // copy matrix is easy in STL; hA_gold = hA_1: save a copy in hA_gold which will be output of
    // CPU BLAS
    hA_gold = hA_1;
    hA_2    = hA_1;

    // copy data from CPU to device
    CHECK_HIP_ERROR(dA_1.transfer_from(hA_1));
    CHECK_HIP_ERROR(dx.transfer_from(hx));
    CHECK_HIP_ERROR(dy.transfer_from(hy));

    double gpu_time_used, cpu_time_used;
    double rocblas_error_1;
    double rocblas_error_2;

    if(arg.unit_check || arg.norm_check)
    {
        // copy data from CPU to device
        CHECK_HIP_ERROR(dA_2.transfer_from(hA_1));
        CHECK_HIP_ERROR(d_alpha.transfer_from(halpha));
        CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_host));
        CHECK_ROCBLAS_ERROR(
            (rocblas_her2<T>)(handle, uplo, N, &h_alpha, dx, incx, dy, incy, dA_1, lda));

        CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_device));
        CHECK_ROCBLAS_ERROR(
            (rocblas_her2<T>)(handle, uplo, N, d_alpha, dx, incx, dy, incy, dA_2, lda));

        // CPU BLAS
        cpu_time_used = get_time_us_no_sync();
        cblas_her2<T>(uplo, N, h_alpha, hx, incx, hy, incy, hA_gold, lda);
        cpu_time_used = get_time_us_no_sync() - cpu_time_used;

        // copy output from device to CPU
        CHECK_HIP_ERROR(hA_1.transfer_from(dA_1));
        CHECK_HIP_ERROR(hA_2.transfer_from(dA_2));

        if(arg.unit_check)
        {
            const double tol = N * sum_error_tolerance<T>;
            near_check_general<T>(N, N, lda, hA_gold, hA_1, tol);
            near_check_general<T>(N, N, lda, hA_gold, hA_2, tol);
        }

        if(arg.norm_check)
        {
            rocblas_error_1 = norm_check_general<T>('F', N, N, lda, hA_gold, hA_1);
            rocblas_error_2 = norm_check_general<T>('F', N, N, lda, hA_gold, hA_2);
        }
    }

    if(arg.timing)
    {
        int number_cold_calls = arg.cold_iters;
        int number_hot_calls  = arg.iters;
        CHECK_ROCBLAS_ERROR(rocblas_set_pointer_mode(handle, rocblas_pointer_mode_host));

        for(int iter = 0; iter < number_cold_calls; iter++)
        {
            rocblas_her2<T>(handle, uplo, N, &h_alpha, dx, incx, dy, incy, dA_1, lda);
        }

        hipStream_t stream;
        CHECK_ROCBLAS_ERROR(rocblas_get_stream(handle, &stream));
        gpu_time_used = get_time_us_sync(stream); // in microseconds

        for(int iter = 0; iter < number_hot_calls; iter++)
        {
            rocblas_her2<T>(handle, uplo, N, &h_alpha, dx, incx, dy, incy, dA_1, lda);
        }

        gpu_time_used = get_time_us_sync(stream) - gpu_time_used;

        ArgumentModel<e_uplo, e_N, e_alpha, e_lda, e_incx, e_incy>{}.log_args<T>(
            rocblas_cout,
            arg,
            gpu_time_used,
            her2_gflop_count<T>(N),
            her2_gbyte_count<T>(N),
            cpu_time_used,
            rocblas_error_1,
            rocblas_error_2);
    }
}
